Latest Articles for Optoelectronics

Examining excitons reveals new opportunities for improving organic semiconductors.

GNNOpt streamlines predicting optical properties from crystal structures, enhancing material discovery.

Investigating CsSnI surfaces to improve performance in solar energy applications.

Exploring how packing density affects electrical conduction in quantum dot materials.

Study reveals how light can change material properties and symmetry.

Using GNNs to predict optical properties of materials improves device design.

Study examines spin relaxation processes in quantum dots and control methods.

Exploring the unique features of NbOCl monolayer in materials science.

A new approach uses machine learning to improve thin film property measurements.

Research reveals exciting interactions between magnons, phonons, and light for future technologies.

Research reveals interesting light interactions in moiré superlattices for electronic applications.

MoTe's unique properties offer new possibilities in optics and electronics.

Research reveals fascinating interactions between excitons and phonons in layered materials.

Research on interlayer excitons reveals new opportunities in electronics and optics.

Research reveals promising applications for TMDs in electronics and optics.

Mem-emitters adapt light emission based on past experiences, advancing computing efficiency.

Study reveals how temperature changes exciton brightness in WSe2 monolayers.

Research reveals significant changes in shift current as materials approach a gapless state.

Examining the properties and potential applications of hybrid perovskites.

A detailed comparison of two forms of sodium germanium selenide for future applications.

Research reveals how terahertz waves influence magnetization in materials.

La:BaSnO shows promise in enhancing performance of electronic and solar devices.

Examining the properties of CdHgTe and the effects of Kane fermions under terahertz radiation.

Study reveals rapid charge transfer in MoS2 layers on gold surfaces.

Researchers manipulate excitons in monolayer MoSe2 using strain for advanced optoelectronic applications.

Aluminum nitride shows promise for efficient light-emitting devices.

Research reveals how light alters material properties at the quantum level.

Exploring the unique optical responses of twisted trilayer graphene structures.

Rb BCl VODPs show potential for safe and efficient optoelectronic applications.

Exploring the unique optical properties of bilayer graphene and their applications.

Research shows strain boosts light emission in TMDs and InSe layers.

Research reveals crucial details about defects in phosphorene affecting electronic applications.

Exploring the unique properties and applications of lead halide perovskites in technology.

Studying defects is key to improving halide perovskite device performance.

Research focuses on excitonic BECs and their unique properties using two-photon measurements.

Research on exciton behavior in TMDs under electric and magnetic fields.

Research reveals how charge impacts exciton diffusion in TMD materials.

How circularly polarized light changes electron behavior in graphene.

Researchers find new ways to improve CsSnI for solar energy applications.

Researchers use lasers to create new pathways for electricity in materials like graphene.